Title :
Transmission bandwidth evaluation based on optical pulse circulation
Author :
Aiba, Takamitsu ; Inoue, Yoshinori ; Shibata, Nori
Author_Institution :
Opt. Network Res. Dept., Optowave Lab. Inc., Kanagawa, Japan
fDate :
7/1/2005 12:00:00 AM
Abstract :
The optical pulse circulation technique is applied to a graded-index polymer-clad silica-core (GI-PCS) fiber at 647-nm wavelength. An optical pulse that circulates a 100-m-long GI-PCS fiber 11 times is successfully observed. Fiber-length dependence of optical pulse spreading is measured for coaxial and off-axis alignment of the test fiber input, and the resultant 3-dB transmission bandwidth is quantitatively evaluated. In order to assess the effect of multimode dispersion in the GI-PCS fiber, an optical pulse that circulates a 110-m-long single-mode fiber (cutoff wavelength of 535 nm) seven times is also observed. The experimental results for both the GI-PCS fiber and single-mode fiber suggest that chromatic dispersion is the main determiner of optical pulse spreading in GI-PCS fiber. This means that the refractive index-profile is almost fully optimized for the GI-PCS fiber examined here.
Keywords :
gradient index optics; high-speed optical techniques; optical communication equipment; optical fibre cladding; optical fibre communication; optical fibre dispersion; optical fibre testing; optical polymers; refractive index; 100 m; 110 m; 535 nm; 647 nm; GI-PCS fiber; chromatic dispersion; graded-index polymer-clad silica-core fiber; multimode dispersion; optical pulse circulation; optical pulse spreading; refractive index-profile; single-mode fiber; transmission bandwidth; Bandwidth; Optical fiber communication; Optical fiber networks; Optical fiber testing; Optical polymers; Optical pulses; Optical refraction; Optical solitons; Pulse measurements; Wavelength measurement; Graded-index polymer-clad silica-core (GI-PCS) fiber; optical pulse circulation; transmission bandwidth;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2005.848545
